qpcr Kit, DNA-free For the PCR detection and identification of bacterial and fungal DNA using custom primers Product code A8514 Product components 100 rxn 250 rxn A 2.5x mastermix (3 mm MgCl 2 final concentration) 2 x 0.5 ml 5 x 0.5 ml B Taq Polymerase DNA-free 0.08 ml 0.2 ml C DNA-free PCR-grade water 1.7 ml 3 x 1.7 ml D DNA staining solution SYBR Green, 10x concentrated 0.25 ml 0.625 ml E Gel loading solution, 6x concentrated 0.2 ml 0.5 ml F DNA size marker (100 bp ladder), pre-stained 0.05 ml 0.125 ml Product description qpcr Kit, DNA-free is designed to run PCR reactions with custom primers aimed to detect bacterial or fungal targets. The mastermix is suitable to amplify microbial DNA with added unspecific or specific primers and thereby detect the presence of bacteria or fungi in a sample. Detection of amplified DNA is done by gel electrophoresis, using components supplied with this kit (DNA marker for size estimation of the amplicon, gel loading solution). qpcr Kit, DNA-free may also be used for detection by Real-Time PCR with intercalating fluorescent dyes or probes or by array technologies. The amplicon may be used for the identification of microorganisms by taxon specific probing or sequence analysis. The mastermix is a 2.5x concentrated solution, the maximum final volume of the reaction mixture being 25 µl. The product contains all components necessary for a PCR run. For PCR runs, supplied Taq Polymerase DNA-free, DNA-free water, custom primers and/or probes and the template have to be added to obtain a complete reaction mixture. Stability Stable at -15 to -25 C for 6 months. Applications PCR detection and identification of bacteria and fungi by custom-specific primers Packaging, Storage and Handling The purification of the mastermix and its filling is done under standard precautions for the avoidance of air-borne and handling-based DNA contaminations. The mastermix is supplied as a 2.5x concentrated solution in DNA-free screw cap vials. Store all vials of the kit at -15 C to -25 C upon receipt. For usage, the mastermix and the other components of the kit are thawed on ice and, after removal of aliquots for use, frozen again for storage. It is important to note that the DNA staining solution is sensitive to light and should be stored in the dark also during handling and use. Take care to maintain a DNA-free environment during opening the vials and handling the mastermix. Use only certified bacterial DNA-free pipette tips and PCR consumables for running the assay. Quality control and specifications Negative PCR controls using DNA-free water instead of template DNA are used for analysis of contamination of bacterial DNA in the purified final mastermix. Guarantee is given for the absence of signals in negative controls for up to 36 PCR cycles and in at least 80 % of the cases for the absence of signals between cylces 37 and 40. DNA-free mastermix is defined as giving no bacterial DNA-specific signal. In negative control runs, the absence of banding in gel electrophoretic analysis must be demonstrated. Positive controls are run using known amounts of genomic DNA extracted and purified from Staphylococcus aureus or other bacteria. Patents/Disclaimer Some applications, in particular Real-Time PCR, in which this product may be used are covered by patents issued and applicable in certain countries. Because purchase of this product does not include a license to perform any patented application, users of this product may be required to obtain a patent license depending upon the particular application and country in which the product is used. Patents especially to be mentioned are those for Real-Time PCR and the use of intercalating fluorescent dyes and probes: EP 543942, EP 919565, US 5210015, US 5487972, US 5804375, US 6214979, EP 512 334, US 5994056, US 6171785, US 5538848, US 5723591, US 5952202, US 5876930, US 6030787, US 6258569, US 6821727. Tradenames Opticon (BioRad), LightCycler (Hoffmann LaRoche), StepOne (Applied Biosystems), SYBR Green 1. -1-1
Real-Time PCR Protocols Using qpcr Kit, DNA for Real-Time PCR (with DNA staining solution SYBR Green ) qpcr Kit, DNA-free can easily be used for the detection of bacterial or fungal DNA by Real-Time PCR. Protocol A Real-Time PCR with PCR vials and strips (qpcr machines, e.g. BioRad Opticon, ABI StepOne ) according to the sequence of steps below. 1. Thaw mastermix, supplied DNA-free water and DNA-staining solution (keep in the dark) in a cooling rack (4 C). Vortex for a few seconds to mix and briefly centrifuge vial. Place Taq Polymerase, DNA-free in another cooling rack (-15 to -25 C). 2. Pipette x µl DNA-free water (for a volume of 25 µl) into each PCR vial. Keep vials chilled. 3. Add 10 µl of the 2.5x mastermix 6. Add 2.5 µl of the 10x DNA staining solution SYBR Green 7. Add 0.8 µl Taq Polymerase, DNA-free 8. Finally add the template. Seal vials and keep chilled until placing in a PCR machine 9. Start the programme of the specific assay For e.g. 10 reactions prepare a 1x mastermix in a DNA-free screw cap or polypropylene vial using the following pipetting scheme (for addition of 2 µl template DNA): 95 µl DNA-free water 100 µl 2.5x mastermix 25 µl 10x DNA staining solution SYBR Green 238 µl total volume of mastermix Vortex for 5 s and pipette 23 µl from this 1x mastermix to each PCR vial. Add 2 µl of the template DNA or 2 µl of supplied DNA-free water (negative PCR control). With each series of Real-Time PCR, run a positive control comprising a DNA standard (10 to 100 ng per reaction) extracted from a bacterial culture. Make sure that the vials are kept dark until placing into the Real-Time PCR machine. Real-Time PCR thermocycling conditions: For Real-Time PCR machines from Applied Biosystems, switch off the internal reference ROX before the PCR run! Set to the appropriate channel for SYBR Green 1 detection. Use the specific conditions of your assay. The 1x mastermix can be used for up to 40 cycles. T m Analysis: 70 to 95 C, read every 0.2 C, hold for 1 s between reads. Identification: Follow the instructions given on page 2 (Identification of bacteria by sequencing). -2-2
Protocol B Real-Time PCR with 20 µl glass capillaries (Roche LightCycler 1.5 and 2.0) according to the sequence of steps below. This protocol is designed for 20 µl assay volume which leaves 25 % of the supplied mastermix. For further use please order Taq Polymerase, DNA-free (Prod. No. A5434). 1. Thaw mastermix, supplied DNA-free water and DNA staining solution (keep in the dark) in a cooling rack (4 C). Vortex for a few seconds to mix and briefly centrifuge vial. Place Taq Polymerase, DNA-free in another cooling rack (-15 to -25 C). 2. Pipette x µl DNA-free water (for a volume of 20 µl) into each LightCycler capillary. Keep capillaries chilled 3. Add 8 µl of the 2.5x mastermix 6. Add 2 µl of the 10x DNA staining solution SYBR Green 7. Add 0. 8. Finally add the template or supplied DNA-free water (negative control). Seal capillaries, centrifuge according to the instructions of the manufacturer and keep chilled in the dark until placing in the Real-Time PCR machine. Start the programme of the specific assay For multiples of reactions prepare a 1x mastermix in a sterile, DNA-free screw cap vial following the the pipetting scheme below as an example for 10 reactions (2 µl template DNA): 70 µl DNA-free water 80 µl 2.5x mastermix 20 µl 10x DNA staining solution SYBR Green 188 µl total volume of mastermix Vortex for 5 s and pipette 18 µl from this 1x mastermix to each capillary. Add 2 µl of the template DNA or 2 µl of supplied DNA-free water (negative PCR control), seal capillaries and centrifuge. With each series of Real- Time PCR, run a positive control comprising a DNA standard (10 to 100 ng per reaction) extracted from a bacterial culture. Make sure that the vials are kept dark until placing into the Real-Time PCR machine. Real-Time PCR thermocycling conditions: Use the specific conditions of your assay. The 1x mastermix can be used for up to 40 cycles. T m Analysis: from 65 C to 95 C, 0.05 C temperature transition rate Identification: Follow the instructions given on page 2 (Identification of bacteria by sequencing). -3-3
Standard PCR Protocol Using qpcr Kit, DNA (A8514) for the qualitative PCR (without DNA staining solution) according to the sequence of steps below: 1. Thaw mastermix and supplied DNA-free water in a cooling rack (4 C). Vortex for a few seconds to mix and briefly centrifuge vial. Place Taq Polymerase DNA-free in another cooling rack (-15 to - 25 C). 2. Pipette x µl of supplied DNA-free water (for a volume of 25 µl) into each PCR vial. Keep vials chilled. 3. Add 10 µl of the 2.5x mastermix 6. Add 0. 7. Finally add y µl of the template. Seal vials and keep chilled until placing in a PCR machine. 8. Start the programme of the specific assay. For e.g. 10 reactions prepare a 1x mastermix in a DNA-free screw cap or polypropylene vial using the following pipetting scheme (for addition of 2 µl template DNA): 120 µl DNA-free water 100 µl 2.5x mastermix 238 µl total volume of mastermix Pipette 23 µl from this 1x mastermix to each PCR vial and add 2 µl of the template DNA or 2 µl of supplied DNA-free water (negative PCR control). With each series of PCR, run a positive control comprising a DNA standard (10 to 100 ng per reaction) extracted from a bacterial culture. PCR thermocycling conditions: Use the specific conditions of your assay. The 1x mastermix can be used for up to 40 cycles. -4-4
Detection by agarose gel electrophoresis (optional) The DNA staining solution supplied with this may be used in gel electrophoretic analysis. Thaw the solution on ice and make sure that it is kept in the dark until use. Prepare a 2 % (w/v) agarose gel in 1x TAE buffer (40 mm Tris-acetate, 1 mm EDTA, ph 8.3) in a 250 ml Erlenmeyer flask by heating in a microwave oven until boiling. When the agarose is dissolved, cool down the solution to approx. 50 C. Pour into a suitable gel tray engaged with rubber gaskets and supplied with a comb in the notches of the gel tray. Once the gel is solid (after approx. 30 min), remove the gel tray from the electrophoresis chamber, remove the comb and put the tray back into the chamber filled with 1x TAE buffer. The gel should be covered with 1 to 2 cm of buffer. For analysis, mix 9 µl of the PCR solution containing the amplicon with 1 µl of the DNA staining solution in an Eppendorf tube or in a well of a 96 well plate. Let stand in the dark for 15 min to bind the stain to the amplicon DNA. Add 2 µl of the gel loading solution and pipette the mixture (12 µl) into a slot of the gel. Into one lane alongside those containing your samples load 5 µl of the DNA size marker. Cover the electrophoresis chamber with the plastic cover and run the gel at the recommended maximum voltage setting of the system (e.g. 5 V/cm gel) in the dark. Let the gel run until the fastest blue dye has moved about 2/3 of the way through the gel. Remove the gel, place it under a UV lamp or on a transilluminator and photograph. Compare potentially appearing bands with the DNA size marker and positive control. Identification of bacteria by sequencing: For sequencing of amplicons the PCR reaction needs to be purified by a commercial PCR purification kit. For this purpose, use the remaining aliquot of the PCR reaction mixture (16 µl) and follow the instructions of the manufacturer of the kit. Elute the amplicon from the column using sterile deionised water. The procedure may not take more than 15 min. Apply the eluted DNA to a sequencing reaction as adviced by the manufacturer of the sequencing system. For identification of the detected bacteria, perform an online search with the nucleotide sequence obtained. For guidance, see e. g. BLAST (http://www.ncbi.nlm.nih.gov/). -5- Version MM091201 5